Devices and methods for automating the process of making flatbread, such as roti. In some embodiments, an apparatus includes a housing, an ingredient metering assembly, a mixing bowl assembly, a mixing actuator assembly, a cooking assembly, and an electronic assembly. The housing defines an interior volume and has several access openings with corresponding lids and/or covers. The ingredient metering assembly includes a flour container assembly, a flour delivery system, a water reservoir, and an oil reservoir. The mixing bowl assembly includes two bowls and a measurement system. The mixing actuator assembly includes a mixing mount, a mixing motor, a mixing paddle assembly, and a lower motor. The cooking assembly includes two platens and an actuator assembly. The electronic assembly includes a power source, a control module, and a LCD input/output screen. All components are integrated within the housing such that the apparatus is a consumer grade countertop appliance.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

The present disclosure relates to a stirrer for stirring a raw material such as flour or meat. Two rotating shafts are installed inside the stirrer such that stirring blades intersect with each other. The two rotating shafts are controlled to simultaneously rotate symmetrically or to rotate in the same direction, and the stirred raw material is discharged through a side surface of a stirring tank of the stirrer. The rotating shafts having the stirring blades formed thereon are connected to a driving means that can adjust the phase angle of the two shafts, via a position control device. The raw material is stirred while relative positions are adjusted such that the stirring blades formed on the two rotating shafts do not interfere with each other.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

A method of forming a composite material includes mixing granules of thermoplastic(s) and granules of reinforcing material(s) using a mixer with an interior friction coating. The friction generated by interaction between the granules and friction coating causes granules of at least one of the thermoplastic(s) to be heated to a liquid or semi-liquid state. The liquid/semi-liquid thermoplastic(s) act a binder for the mixed material. A system for forming such a composite material includes such a mixer with an interior friction coating. The system may also include a mould and/or a press for forming material produced by the mixer into a finished shape. The method and system may use post-consumer and post-industrial material as an input allowing such material to be recycled. In some cases, cross-contaminated or mixed post-consumer/post-industrial material may be recycled, potentially reducing environmental impacts.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

A mixing device includes a container for receiving mixing material, with an emptying opening being arranged in the bottom thereof, and a closure cover for closing the emptying opening. The mixing device includes an emptying opening that can be easily and space-savingly opened and closed. The closure cover includes two closure cover portions which can be reciprocated relative to each other between a closed position in which the two closure cover portions are in contact with each other and together form the closure cover and an opened position in which the two closure cover portions are spaced from each other so that an opening is formed between the two closure cover portions for removal of the mixing material from the container.

An agricultural machine for transportation and distribution of bulk products, including a tank, which is mounted on a rolling chassis, which is provided with at least one sealable opening situated at the level of the bottom of the tank and which is equipped with at least one mobile device performing scraping of the bottom and favoring ejection of the product. An agricultural machine wherein the mobile device or each mobile device is mounted to rotate around a vertical shaft or axis, perpendicular relative to the plane of the bottom and including at least two separate radial arms, distributed around the axis and sweeping over substantially the entire surface of the bottom, wherein the thickness or the height of each arm relative to the bottom is smaller than the height of the lateral opening or of each lateral opening.

An internal mixer includes a mixing chamber enclosed by a housing, a feeding neck in which a ram is guided, a closable discharge door, and an intermeshing rotor system, composed of a pair of rotors that can each be rotated about a rotor longitudinal axis, each rotor comprising a rotor main body on which at least one respective rotor blade is arranged, and the rotor blades of the two rotors meshing with one another, is to be refined in such a way that an improved, that is, faster, pull-in behavior is achieved, while optimizing the dispersion and distribution of the introduced materials. To this end, it is provided that in the case of at least one of the rotors, the rotor main body, at least in sub-regions, is non-cylindrical and has a non-circular cross-section, in the surface sections in which no rotor blades are arranged on the rotor main body.